Uncertainties of landslide susceptibility prediction: influences of different study area scales and mapping unit scales

Faming Huang; Yu Cao; Wenbin Li; Filippo Catani; Guquan Song; Jinsong Huang; Changshi Yu

doi:10.1007/s40789-024-00678-w

International Journal of Coal Science & Technology (Apr 2024)

Uncertainties of landslide susceptibility prediction: influences of different study area scales and mapping unit scales

Faming Huang,
Yu Cao,
Wenbin Li,
Filippo Catani,
Guquan Song,
Jinsong Huang,
Changshi Yu

Affiliations

Faming Huang: School of Civil Engineering and Architecture, Nanchang University
Yu Cao: School of Civil Engineering and Architecture, Nanchang University
Wenbin Li: School of Civil Engineering and Architecture, Nanchang University
Filippo Catani: Department of Geosciences, University of Padova
Guquan Song: School of Civil Engineering and Architecture, Nanchang University
Jinsong Huang: Discipline of Civil, Surveying and Environmental Engineering, Priority Research Centre for Geotechnical Science and Engineering, University of Newcastle
Changshi Yu: School of Information Engineering, Nanchang University

DOI: https://doi.org/10.1007/s40789-024-00678-w
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 30

Abstract

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Abstract This study aims to investigate the effects of different mapping unit scales and study area scales on the uncertainty rules of landslide susceptibility prediction (LSP). To illustrate various study area scales, Ganzhou City in China, its eastern region (Ganzhou East), and Ruijin County in Ganzhou East were chosen. Different mapping unit scales are represented by grid units with spatial resolution of 30 and 60 m, as well as slope units that were extracted by multi-scale segmentation method. The 3855 landslide locations and 21 typical environmental factors in Ganzhou City are first determined to create spatial datasets with input-outputs. Then, landslide susceptibility maps (LSMs) of Ganzhou City, Ganzhou East and Ruijin County are produced using a support vector machine (SVM) and random forest (RF), respectively. The LSMs of the above three regions are then extracted by mask from the LSM of Ganzhou City, along with the LSMs of Ruijin County from Ganzhou East. Additionally, LSMs of Ruijin at various mapping unit scales are generated in accordance. Accuracy and landslide susceptibility indexes (LSIs) distribution are used to express LSP uncertainties. The LSP uncertainties under grid units significantly decrease as study area scales decrease from Ganzhou City, Ganzhou East to Ruijin County, whereas those under slope units are less affected by study area scales. Of course, attentions should also be paid to the broader representativeness of large study areas. The LSP accuracy of slope units increases by about 6%–10% compared with those under grid units with 30 m and 60 m resolution in the same study area's scale. The significance of environmental factors exhibits an averaging trend as study area scale increases from small to large. The importance of environmental factors varies greatly with the 60 m grid unit, but it tends to be consistent to some extent in the 30 m grid unit and the slope unit. Graphic abstract

Published in International Journal of Coal Science & Technology

ISSN: 2095-8293 (Print); 2198-7823 (Online)
Publisher: SpringerOpen
Country of publisher: Germany
LCC subjects: Technology: Mining engineering. Metallurgy
Website: http://www.springer.com/40789

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